DE2749219A1 - DOSING VALVE - Google Patents

Description

PATINTANWlLTI t / H J i I PROF. DR. DR. J. REITSTÖTTER DR.-ING. WOLFRAM BUNTE DR. WERNER KINZEBACH

KUBRSTRASSK St. β ·· ΟΟΟ MÜNCHEN 4O · FKRNRUF (Ο ··) ST SS M · TKLKX SS1SSO · ISAN POSTAL ADDRESS: POSTBOX TSO. D-BOOO MUNICH

Munich, February 14, 1978

M / 18 255 N / 18 256

L ¹ OREAL

14, Rue Royale

75008 Paris, France

Dosing valve

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M / 18 255, M / 18 256 --4Γ- 2/49219

It is known to have a distribution valve in the top of the container in pressurized aerosol-type containers provide through which the product in the container is sprayed when the user presses a button or a comparable device pushes. It is also known that a predetermined one for each operation Amount of the product can be sprayed with the help of metering valves with a known structure.

A first, already known metering valve consists of a valve body, in the interior of which a nozzle, the part of which protruding from the valve body is formed by the outlet pipe, is displaceably mounted. In this outlet pipe is an axial channel which opens in a radial channel which communicates with the interior of the valve body during a distribution operation i _n connection. At the base of the outlet tube there is a collar which is pressed by the compressive force exerted by a spring against a sealing washer located in the upper part of the valve body. This bearing of the collar on the disc causes the interior of the valve body to be sealed off from its exterior and consequently the valve to be closed. In its lower part the nozzle has a closure which closes the opening of the immersion tube which opens into the interior of the valve body.

When the user presses on the projecting beyond the dip tube push button, causes the fact that the nozzle penetrates into the interior of the valve body and opening into the interior of the valve body opening of the dip tube is filled by the closure. In this way, the

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Closure the seal of the interior of the valve body from the pressurized container. At the same time will the collar of the nozzle is removed from the sealing washer and the amount of product to be sprayed contained in the valve body can be dispensed. If the user If you let go of the push button, the nozzle, caused by the spring, returns to its initial position, and the collar the nozzle pressed against the sealant causes the valve to close. Now the valve body can start again with a dose of the to be sprayed Top up the product.

Such a metering valve works of course j only if the amount of product to be sprayed, which is present in the interior of the valve body, with a Propellant or with the liquid phase of a propellant,! that is at normal use temperature of the under pressure j standing container in the vapor-liquid phase is mixed. If the propellant is a non-liquid, compressed gas such as nitrogen is used, the valve body contains only the product to be sprayed, which consequently not like that in the distribution process Propellant behaves and is therefore not expelled when the outlet pipe penetrates. Because of this, a Second metering valve has been proposed, which still works even when the dose of the to be sprayed Product is not mixed with a propellant. Such a metering device has a pocket made of flexible Material that encloses the valve body, the interior of the valve body with that of the pocket in communication stands. In this case, the interior of the elastic bag becomes exposed to atmospheric pressure the moment the user lets the nozzle penetrate, and the pressure inside the container causes the walls of the elastic pouch to be compressed, thereby reducing the dose of the product contained therein is expelled.

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Although these two metering valve models allow satisfactory use, they nonetheless have the disadvantage that that their structure is relatively complicated. In fact, these two models need an additional one Closure, which is located on the nozzle and during the

Distribution process the interior of the valve body of | insulated from that of the pressurized container, moreover, the quantities of product dispensed are necessarily tiny; with the first type of valve, the dose to be sprayed is located in a valve body with small dimensions, and with the second type of valve, the amount to be dispensed is larger, but a flexible bag is required, which has the disadvantage that it increases the manufacturing cost of such a valve.

The present invention aims to eliminate the above-mentioned disadvantages with the aid of a valve, which works without an additional closure and allows larger quantities of product to be dispensed. To that end is in the present invention a conventional dispensing valve which does not have a metering device with a flexible one Immersion tube combined, which in a section partially through an obstacle, which has a reduced flow cross-section determined is locked. The amount of product distributed during one actuation process is that which is at the same time is contained in the valve body and the part of the dip tube that is located between the obstacle and the valve body. If the user operates the valve according to the invention, for example by means of a push button, the can in the valve body and the amount of product in the immersion tube below the obstacle by compressing the walls of the immersion tube, caused by the overpressure prevailing inside the pressurized container. The compression of the walls of the dip tube causes not only the release of the product contained in it, but also a sealing of the interior of the container and

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of the valve apart when the user presses the push button does not let go. It must be emphasized that the distribution of a quantity of product can be carried out even if Propellant a compressed, non-liquid gas is used, which is consequently not present in the dose to be dispensed together with the product to be sprayed as a mixture.

The invention therefore relates to a metering valve for one aerosol-type pressurized container used by a user by means of a push button or a comparable device for dispensing a predetermined amount of the product located in the container is actuated, and in particular a metering valve in which a in the interior of the Container arranged immersion tube is attached to the valve body, the interior of the valve body with that of the immersion tube Channel formed is in communication, and there is an obstacle in a section of the dip tube, which the The flow cross-section of the dip tube is reduced in relation to the inner diameter of the other sections of the same. This metering valve is characterized in that the immersion tube is made of an elastic, deformable material is.

In a preferred embodiment of the invention is the obstacle is arranged at that end of the channel of the dip tube which is not in communication with the valve body. This obstacle is made of a solid, non-deformable material and is formed by a disc that attaches to its circumference is positively connected to the hand of the channel surrounding it. This disc has at least one Small diameter flow opening. The length 1 of the passage opening is in relation to the largest cross section the latter big. If s is the diameter of the passage opening delimited by the obstacle and S is the inner diameter

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of the immersion tube expressed in the same units, then s / S is between 1/4 00 and 1/150. This passage opening has a circular cross-section with the radius R and the ratio R / 1 is between 1/50 and 1/25. ^:

The invention is also a stand under pressure ^!

the container of the spray can type, which consists of a can on which a metering valve is attached and which is provided for the simultaneous intake of the product to be sprayed and at least one propellant, characterized in that it is the metering valve is a valve of the type described above. ^;

In a first embodiment of the present invention the propellant is a propellant that is used in normal use temperature of the pressurized container in the liquid or vapor-liquid state, the liquid phase of the propellant liquid being mixed with the product to be sprayed. In this example the immersion tube can be made of a rigid, non-deformable material, since that in which the dose is made available Space, i.e. in the interior of the immersion tube and the valve body, product contained by the pressure exerted by the liquefied propellant is generated, which mixes with the product to be sprayed in the space providing the dose is, can be submitted. Nevertheless, the dip tube should preferably have a flexible, deformable wall be equipped to ensure the seal between the interiors of the pressurized container and the dip tube when To ensure the distribution process and to obtain substantially equal doses of the product for each distribution process. The compression of the deformable wall of the dip tube ensures that the latter after a dose of product has been dispensed is closed.

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In a further embodiment of the invention the propellant is a compressed, non-liquid gas, e.g. Nitrogen. In this case, the delivery of the product, which is located in the space providing the dose above the an obstacle provided at one end of the immersion tube can only be effected by pressing in the walls of the immersion tube, since the product located in the space providing the dose does not have a propellant quantity that ensures its delivery is mixed.

For a better understanding of the invention, an embodiment of the invention with the aid of the appended below is intended to be

j drawing.

Show it:

1 shows the axial section through a pressurized container with a metering valve according to the invention, a push button protruding beyond the outlet tube of the valve,
I.

Figure 2 shows the detailed drawing of the lower end of the dip tube of the metering valve according to the invention and, in the dashed line that caused inwardly directed during the spraying process Deformation of the dip tube, which serves to deliver a dose of the product and at the same time the Seal between the interior of the pressurized container and the end of the dip tube cause.

As shown in Figure 1, a pressurized container 1 of the aerosol type comprises a bottom 2 and a top portion supported by a valved insert

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is closed, from which a metering valve 4 according to the invention emerges upwards.

The metering valve has a valve body 5 which is attached in the central part of the insert 3. The valve body 5 is closed at its upper end by a sealing washer 6, in the opening of which the outlet pipe 7 is an im Inside the valve body 5 arranged nozzle 8 can slide. In the outlet pipe there is a channel 9 which is connected to its lower end with a radial channel 10 in connection stands. One end of this channel 9 opens into the channel 10, and its other end into the outer space of the nozzle 8. The lower one Part of this output pipe 7 is connected to a collar 11, the diameter of which is slightly larger than that of the outlet pipe 7. When the valve 4 is in the idle state is located, the collar 11 is pressed against the sealing washer 6 by a spiral spring 12. The aforementioned spiral spring 12 is between the lower surface of the collar 11 of the nozzle and a bearing surface provided on the lower part of the valve body 5 is inserted. On the upper part of the outlet pipe 7 is a push button 13 is placed, which has a distribution channel 14 provided with an atomizer disk 15.

The lower part of the valve body 5 is extended by a sleeve 16, in the interior of which a dip tube 17 is attached is. An essential feature of this valve is that the channel 18 formed by the dip tube 17 at that end that is not in the valve body 5 opens, is provided with an obstacle 19, which is made of a rigid material and a Passage opening 20 is defined, the cross section of which is small in relation to that of the channel 18 of the immersion tube 17. In In this embodiment there is the obstacle 19, with which a strong pressure drop for the flow of the liquid through the dip tube 17 is effected from a disc, which with its circumference is fitted to the wall of the immersion tube 17.

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The passage opening 20 has a circular cross section with a radius of 0.1 mm. Their length is 5 mm. That Dip tube 17 is 30 cm long and the channel 18 has an inner diameter of 6.4 mm.

Another special feature of the device according to the invention consists in that the dip tube 17 is made of an elastically deformable material such as buna or neoprene is. As will be described in detail hereinafter, the metering device of the valve 4, i.e. that Device that allows a predetermined amount to be distributed each time the valve is operated is, of the equipped with deformable walls immersion tube 17 and the channel 18 of the valve partially closing Obstacle 19 formed.

In this embodiment it is the product to be sprayed a liquid intended for cosmetic purposes, which is mixed with the liquid phase of a propellant liquid, which is in normal use temperature is in the vapor-liquid phase, is mixed, such as. B. a chlorofluoroalkane mixture.

The vapor phase of the propellant is in the upper part of the pressurized, vertically held (valve after above) container, while its liquid phase is mixed with the product to be sprayed in the lower part of the container, in the channel 18 and the valve body 5 is included. The interior of the channel 18 and the free interior of the valve body 5 form the space providing the dose.

j When the valve is at rest, the collar will

11 pressed by the spring 12 against the wall of the sealing washer 6. This holder of the collar 11 ensures that the channel 10 is closed and thus ensures the

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Sealing between the interior of the pressurized container and its exterior. The interiors of the pipe 17 and the valve body 5 contain the dose of the product to be sprayed mixed with the liquid phase of the propellant.

When the user presses the push button 13, the penetrates Nozzle 8 into the interior of the valve body 5, and the collar 8 moves away from it from the lower surface of the Sealing washer 6 formed support surface, whereby the product contained in the dip tube 17 and in the valve body 5 after prior flow through the channel 18, the channels 10 and 9, the channel 14 and the atomizer disk 15 is distributed.

This expulsion of the in each case providing a single dose The product contained in the space is not only caused by the presence of the propellant, its liquid Phase is mixed with the product to be sprayed, but also by the arrows 21 in the drawing Schematic pressure force, which comes from the air pressure inside the container and is caused by the obstacle 19 caused pressure drop developed. This compressive force causes the flexible, deformable wall to be compressed of the dip tube 17 and thus the delivery of the amount of product contained in the channel 18. When the user removes the exit pipe 7 of the valve is depressed by means of the push button 13, the distribution of the product takes place until the deformation the walls of the dip tube is so strong that the channel 18 is completely closed. At that moment the distribution will be stopped even if the valve is still open.

When the user releases the push button, the collar 8 is pressed against the sealing washer 6 again. The valve is thus closed. The mixture (product propellant liquid to be sprayed) can now again enter the interior of the channel 18 through the opening 20 in the obstacle 19

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Reach area with reduced flow rate and as a result of the pressure equalization between the outside and the Inside the immersion tube, the walls of the tube can take on their original shape again because of their flexibility. When the space providing the dosage is filled again with the product to be sprayed, another predetermined single dose are dispensed by the fact that the push button 13 is actuated.

It has been found that the metering valve according to the invention is one in relation to conventional metering valves has a very low manufacturing price, which is due to the fact that it is simply formed from the combination of a conventional distribution valve and a dip tube, which has flexible, deformable walls and has an obstacle at its free end. In addition, it should be noted that the dose of the product to be sprayed in the metering valve according to the invention essentially depends on the internal volume of the Immersion tube depends. It is therefore possible to mass-produce pressurized containers that have metering valves that deliver different amounts of spray. These metering valves have the same valve bodies and the same nozzles 8 and the length or cross-section of the dip tube is determined depending on the desired amount of product delivery. Finally, the filling of the under Pressurized container according to the invention as in conventional valves not provided with metering devices, be done both before and after the valve is installed.

Of course, the invention is not restricted to the exemplary embodiment described above and is not desired Changes can be made without going beyond the scope of the invention.

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Claims (9)

M / 18 255, M / 18 256 X Claims / 1. jDosing valve for a pressurized container om aerosol type, operated by the user by means of a push button or a comparable device for dispensing a predetermined amount of the contained in the container Product is actuated and in which a dip tube located in the interior of the container on the valve body is attached, the interior of the valve body with the channel formed by the dip tube in connection stands, an obstacle is provided in a part of the immersion tube, this obstacle being the flow cross-section of the immersion tube compared to the inner diameter of the other sections of the same reduced, characterized in that the immersion tube (17) is made of an elastically deformable material is made. 2. Dosing valve according to claim 1, characterized in that the obstacle (19) at that end of the channel (18) of the immersion tube (17) is located, which is not connected to the valve body (5). 3. Dosing valve according to one of claims 1 or 2, characterized in that the obstacle (19) by a disc is formed, which is positively connected to the wall of the channel surrounding it (18), this Disc has at least one flow opening (20), which has a small diameter. 4. Dosing valve according to claim 3, characterized in that the length of the flow opening (20) is large in relation to its largest cross-sectional dimension. 809821/0667 ORIGINAL INSPECTED 5. Dosing valve according to one of claims 3 or 4, characterized in that the ratio of the cross section of the through the obstacle (19) determined flow opening (20) to the inner cross section of the dip tube (17) between 1/400 and 1/150 lies. 6. Dosing valve according to one of claims 3 to 5, characterized in that the flow opening (20) is circular Has cross section and that the ratio of the radius to the length of the flow opening (20) between 1/50 and 1/25. 7. Aerosol-type pressurized container consisting of a can on which a metering valve is attached is, this can is intended to contain both the product to be sprayed and at least one propellant to contain, characterized by a metering valve (4) according to one of claims 1 to 6. 8. A pressurized container according to claim 7, characterized in that the propellant is a liquid propellant, which is at normal use temperature of the pressurized container located in the vapor-liquid phase, the liquid phase of the propellant with the to be sprayed Product is mixed. 9. Pressurized container according to claim 8, characterized in that the propellant liquid is a non-liquid, compressed gas such as nitrogen. 809821/0657